This application claims priority to Italian Patent Application BO2009A000226 filed Apr. 8, 2009, the entirety of which is incorporated by reference herein.
This invention relates to a hinge for wings or doors.
The use of a hinge according to the invention is particularly advantageous for connecting the door of an electrical household appliance to the respective mounting frame.
This specification describes the present invention with reference to an oven purely by way of a non-limiting example.
In prior art ovens, when the oven door is opened by rotating it away from the closed position, the door may interfere with one of the lateral uprights of the oven because its axis of rotation cannot physically be located at the absolute end of the door.
In effect, the mere fact of locating the pivot axis even just a few millimeters above the lower end of the door means that opening the door by rotating it about its pivot axis causes a part of the door itself to move into the interior of the oven.
The ends of the uprights are therefore cut to allow the door to be opened without causing the lower portion of it to interfere with the uprights.
These cuts, besides not being visually pleasing when the door is open, provides a repository for dirt or pieces of food, which may accidentally fall into the oven structure, and may also be dangerous as they are made by shearing often relatively thin metal sheets.
In the prior art hinges with two arms are known which tackle and partly overcome this shortcoming.
Prior art hinges with two arms, although they solve the above mentioned problem, are not free of disadvantages, particularly as regards compliance with basic safety standards.
Indeed, besides the complexity due to the presence of the two arms, the arms themselves constitute a serious danger for users during operation of the hinge because of the risk of squashing their fingers between the two hinge arms when opening the door. For this reason, hinges with two arms have in practice been phased out of the market.
The aim of this invention is to provide a hinge for wings or doors which is free of the above mentioned disadvantages of the prior art.
The technical features of the invention, with reference to the above aim, can be easily inferred from the appended claims, in particular claim 1, and preferably any of the claims that depend, whether directly or indirectly, on claim 1.
The advantages of the invention are apparent from the detailed description which follows, with reference to the accompanying drawings which illustrate a preferred embodiment of the invention provided merely by way of example and without restricting the scope of the inventive concept, and in which:
With reference to
As shown in
With reference also to
As shown in
The second external box-shaped element 62 also has a substantially C-shaped transversal cross section and extends longitudinally along the axis B, in practice surrounding the first element 61. Spacing means are interposed between the elements 61 and 62 to allow them to slide correctly relative to each other according to a predetermined direction D1 parallel to the axis B. With reference to
With reference to the embodiment of
Again with reference to
For connecting the second arm 9 to the second body 6, the hinge 1 comprises a first pin 10 passing through a respective hole made at the end of the second arm 9 and coaxial with the axis A.
As illustrated in
Advantageously, the rod 11 is also box shaped, with a C-shaped cross section, and has a lower end 11a pivoted to the lever 7 at a respective pin P, in substantially known manner, and an upper end 11b for connection to the stem 12.
The second body 6 mounts a first helical spring 13, fitted round the outside of the stem 12 and stressed by compression.
The first box-shaped element 61 comprises an upper wall 14 at right angles to the axis B and having a hole for the passage of the stem 12. The upper wall 14 forms an abutment surface for a proximal end coil 13a of the spring 13.
The stem 12 has an upper end longitudinally opposite the one hooked to the rod 11, the upper end being designed to engage a distal end coil 13b in such a way as to compress the spring 13.
The spring 13 constitutes for the hinge 4 an elastic element designed to generate a reaction force that opposes the opening of the door 3.
Added to the elastic action of the spring 13, in a substantially known manner not further described, is the action of a second, pre-compressed helical spring 15, shown in
Pivoting on the opposite side walls of the first box-shaped element 61, labeled P1 and P2 in
As clearly illustrated in
In other words, a first pin 17 extends towards the inside of the first box-shaped element 61 in order to engage a respective slot 19 made in the rod 11.
A second pin 18, on the other hand, extends in the opposite direction to the first, that is to say, towards the outside of the first box-shaped element 61 in order to engage a respective slot 20 made in the box-shaped element 62, as shown in
As clearly illustrated in
In use, as shown by way of example in
Since the first pin 17 is engaged inside the slot 19, the movement of the rod 11 relative to the box-shaped element 61 causes the rocker elements 16 to rotate about their axis R.
During this rotation, however, the second pin 18, which is engaged in the respective slot 20 made in the second box-shaped element 62, pushes the latter and causes it to move relative to the first box-shaped element 61.
In other words, the rotation of the rotary rocker element 16 causes relative sliding between the first box-shaped element 61 and the second box-shaped element 62 in the above mentioned direction D1.
When opened, the door 3, which is fixed stably to the second box-shaped element 62, does not interfere with any part that is integral with the frame 2 because the sliding of the elements 61 and 62 relative to each other causes it to move away from the frame 2, as clearly shown in
The rotary rocker elements 16, the pins 17, 18 and the respective slots 19, 20 together form actuator means 23 for imparting the relative sliding movement to the first and second box-shaped elements 61, 62.
Advantageously, by varying the distance of the pins 17, 18 from the pivot axis R of the rocker elements 16, it is possible to modify the extent of the relative sliding movement between the two box-shaped elements 61, 62 and also the effort the user is required to exert to obtain this movement.
In alternative embodiments not illustrated, the rotary rocker elements 16 may for this purpose have different alternative positions for the pins 17, 18 or even pins which are adjustable in position.
The operating principle of the hinge 4′ does not substantially differ from the one described above with reference to the hinge 4, since it too involves the sliding of the two box-shaped elements 61, 62 relative to each other in order to move the door 3 away from the frame 2 of the oven 1 during opening of the door 3.
It may be immediately inferred from these drawings that the effect obtained with this invention is precisely that of moving the part of the hinge that is integral with the door (in this case, the lever 7) away from the part of the hinge that is integral with the frame (in this case, the body 6).
With reference to
When the lever 7 has rotated in the opening direction, for example through 45°, the box-shaped elements 61, 62 have already been made to slide relative to each other by the actuating means 23, thereby increasing the above mentioned distance to a value L′ greater than L.
Lastly, when the door has reached its fully open position and the lever 7 has been rotated through 88° from its initial configuration shown in
In an experimental non-limiting example version of the hinge 4′, illustrated in
The shoes 64 are hooked to the first box-shaped element 61 at its opposite longitudinal ends, there being two for each side wall P1, P2.
Each shoe 64 has two respective convex portions 64a, protruding towards the second box-shaped element 62, in such a way as to space the box-shaped elements 61, 62 from each other and, thanks also to the low-friction material they are made of, to facilitate their relative sliding movement.
The invention described has evident industrial applications and can be modified and adapted in several ways without thereby departing from the scope of the inventive concept. Moreover, all details of the invention may be substituted by technically equivalent elements.
Number | Date | Country | Kind |
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BO2009A000226 | Apr 2009 | IT | national |